Exemplo n.º 1
0
void PropertyFileIncluded::Restore(Base::XMLReader &reader)
{
    reader.readElement("FileIncluded");
    if (reader.hasAttribute("file")) {
        string file (reader.getAttribute("file") );
        if (!file.empty()) {
            // initate a file read
            reader.addFile(file.c_str(),this);
            // is in the document transient path
            aboutToSetValue();
            _cValue = getDocTransientPath() + "/" + file;
            _BaseFileName = file;
            hasSetValue();
        }
    }
    // section is XML stream
    else if (reader.hasAttribute("data")) {
        string file (reader.getAttribute("data") );
        if (!file.empty()) {
            // is in the document transient path
            aboutToSetValue();
            _cValue = getDocTransientPath() + "/" + file;
            reader.readBinFile(_cValue.c_str());
            reader.readEndElement("FileIncluded");
            _BaseFileName = file;
            hasSetValue();
        }
    }
}
void PropertyColumnWidths::Restore(Base::XMLReader &reader)
{
    int Cnt;

    // Column info
    reader.readElement("ColumnInfo");
    Cnt = reader.hasAttribute("Count") ? reader.getAttributeAsInteger("Count") : 0;
    for (int i = 0; i < Cnt; i++) {
        reader.readElement("Column");
        const char* name = reader.hasAttribute("name") ? reader.getAttribute("name") : 0;
        const char * width = reader.hasAttribute("width") ? reader.getAttribute("width") : 0;

        try {
            if (name && width) {
                int col = App::decodeColumn(name);
                int colWidth = atoi(width);

                setValue(col, colWidth);
            }
        }
        catch (...) {
            // Something is wrong, skip this column
        }

    }
    reader.readEndElement("ColumnInfo");
}
Exemplo n.º 3
0
void PropertyLinkSub::Restore(Base::XMLReader &reader)
{
    // read my element
    reader.readElement("LinkSub");
    // get the values of my attributes
    std::string name = reader.getAttribute("value");
    int count = reader.getAttributeAsInteger("count");

    // Property not in a DocumentObject!
    assert(getContainer()->getTypeId().isDerivedFrom(App::DocumentObject::getClassTypeId()) );

    std::vector<std::string> values(count);
    for (int i = 0; i < count; i++) {
        reader.readElement("Sub");
        values[i] = reader.getAttribute("value");
    }

    reader.readEndElement("LinkSub");

    DocumentObject *pcObject;
    if (!name.empty()) {
        App::Document* document = static_cast<DocumentObject*>(getContainer())->getDocument();
        pcObject = document ? document->getObject(name.c_str()) : 0;
        if (!pcObject) {
            if (reader.isVerbose()) {
                Base::Console().Warning("Lost link to '%s' while loading, maybe "
                                        "an object was not loaded correctly\n",name.c_str());
            }
        }
        setValue(pcObject,values);
    }
    else {
       setValue(0);
    }
}
Exemplo n.º 4
0
void PropertyLinkSubList::Restore(Base::XMLReader &reader)
{
    // read my element
    reader.readElement("LinkSubList");
    // get the value of my attribute
    int count = reader.getAttributeAsInteger("count");

    std::vector<DocumentObject*> values;
    values.reserve(count);
    std::vector<std::string> SubNames;
    SubNames.reserve(count);
    for (int i = 0; i < count; i++) {
        reader.readElement("Link");
        std::string name = reader.getAttribute("obj");
        // In order to do copy/paste it must be allowed to have defined some
        // referenced objects in XML which do not exist anymore in the new
        // document. Thus, we should silently ignore this.
        // Property not in an object!
        DocumentObject* father = static_cast<DocumentObject*>(getContainer());
        App::Document* document = father->getDocument();
        DocumentObject* child = document ? document->getObject(name.c_str()) : 0;
        if (child)
            values.push_back(child);
        else if (reader.isVerbose())
            Base::Console().Warning("Lost link to '%s' while loading, maybe "
                                    "an object was not loaded correctly\n",name.c_str());
        std::string subName = reader.getAttribute("sub");
        SubNames.push_back(subName);
    }

    reader.readEndElement("LinkSubList");

    // assignment
    setValues(values,SubNames);
}
void PropertyPythonObject::restoreObject(Base::XMLReader &reader)
{
    Base::PyGILStateLocker lock;
    try {
        PropertyContainer* parent = this->getContainer();
        if (reader.hasAttribute("object")) {
            if (strcmp(reader.getAttribute("object"),"yes") == 0) {
                Py::Object obj = Py::asObject(parent->getPyObject());
                this->object.setAttr("__object__", obj);
            }
        }
        if (reader.hasAttribute("vobject")) {
            if (strcmp(reader.getAttribute("vobject"),"yes") == 0) {
                Py::Object obj = Py::asObject(parent->getPyObject());
                this->object.setAttr("__vobject__", obj);
            }
        }
    }
    catch (Py::Exception& e) {
        e.clear();
    }
    catch (const Base::Exception& e) {
        Base::Console().Error("%s\n",e.what());
    }
    catch (...) {
        Base::Console().Error("Critical error in PropertyPythonObject::restoreObject\n");
    }
}
void PropertyRowHeights::Restore(Base::XMLReader &reader)
{
    int Cnt;

    // Row info
    reader.readElement("RowInfo");
    Cnt = reader.hasAttribute("Count") ? reader.getAttributeAsInteger("Count") : 0;
    for (int i = 0; i < Cnt; i++) {
        reader.readElement("Row");
        const char* name = reader.hasAttribute("name") ? reader.getAttribute("name") : 0;
        const char * height = reader.hasAttribute("height") ? reader.getAttribute("height") : 0;

        try {
            if (name && height) {
                int row = App::decodeRow(name);
                int rowHeight = atoi(height);

                setValue(row, rowHeight);
            }
        }
        catch (...) {
            // Something is wrong, skip this row
        }
    }
    reader.readEndElement("RowInfo");
}
Exemplo n.º 7
0
void ProfileBased::Restore(Base::XMLReader& reader) {
   
    reader.readElement("Properties");
    int Cnt = reader.getAttributeAsInteger("Count");

    for (int i=0 ;i<Cnt ;i++) {
        reader.readElement("Property");
        const char* PropName = reader.getAttribute("name");
        const char* TypeName = reader.getAttribute("type");
        App::Property* prop = getPropertyByName(PropName);
        // NOTE: We must also check the type of the current property because a
        // subclass of PropertyContainer might change the type of a property but
        // not its name. In this case we would force to read-in a wrong property
        // type and the behaviour would be undefined.
        try {
            //check if we load the old sketch property
            if(!prop && (strcmp("Sketch", PropName) == 0) && (strcmp("App::PropertyLink", TypeName) == 0)) {
                
                std::vector<std::string> vec;
                // read my element
                reader.readElement("Link");
                // get the value of my attribute
                std::string name = reader.getAttribute("value");

                if (name != "") {                    
                    App::Document* document = getDocument();
                    DocumentObject* object = document ? document->getObject(name.c_str()) : 0;
                    Profile.setValue(object, vec);
                }
                else {
                    Profile.setValue(0, vec);
                }
            }
            else if (prop && strcmp(prop->getTypeId().getName(), TypeName) == 0)
                prop->Restore(reader);
        }
        catch (const Base::XMLParseException&) {
            throw; // re-throw
        }
        catch (const Base::Exception &e) {
            Base::Console().Error("%s\n", e.what());
        }
        catch (const std::exception &e) {
            Base::Console().Error("%s\n", e.what());
        }
        catch (const char* e) {
            Base::Console().Error("%s\n", e);
        }

        reader.readEndElement("Property");
    }
    reader.readEndElement("Properties");
}
Exemplo n.º 8
0
void PropertyMeshKernel::Restore(Base::XMLReader &reader)
{
    reader.readElement("Mesh");
    std::string file (reader.getAttribute("file") );
    
    if (file.empty()) {
        // read XML
        MeshCore::MeshKernel kernel;
        MeshCore::MeshInput restorer(kernel);
        restorer.LoadXML(reader);

        // avoid to duplicate the mesh in memory
        MeshCore::MeshPointArray points;
        MeshCore::MeshFacetArray facets;
        kernel.Adopt(points, facets);

        aboutToSetValue();
        _meshObject->getKernel().Adopt(points, facets);
        hasSetValue();
    } 
    else {
        // initate a file read
        reader.addFile(file.c_str(),this);
    }
}
Exemplo n.º 9
0
void PropertyLink::Restore(Base::XMLReader &reader)
{
    // read my element
    reader.readElement("Link");
    // get the value of my attribute
    std::string name = reader.getAttribute("value");

    // Property not in a DocumentObject!
    assert(getContainer()->getTypeId().isDerivedFrom(App::DocumentObject::getClassTypeId()) );

    if (name != "") {
        DocumentObject* parent = static_cast<DocumentObject*>(getContainer());

        App::Document* document = parent->getDocument();
        DocumentObject* object = document ? document->getObject(name.c_str()) : 0;
        if (!object) {
            if (reader.isVerbose()) {
                Base::Console().Warning("Lost link to '%s' while loading, maybe "
                                        "an object was not loaded correctly\n",name.c_str());
            }
        }
        else if (parent == object) {
            if (reader.isVerbose()) {
                Base::Console().Warning("Object '%s' links to itself, nullify it\n",name.c_str());
            }
            object = 0;
        }

        setValue(object);
    }
    else {
        setValue(0);
    }
}
Exemplo n.º 10
0
void PointKernel::Restore(Base::XMLReader &reader)
{
    clear();

    reader.readElement("Points");
    std::string file (reader.getAttribute("file") );

    if (!file.empty()) {
        // initiate a file read
        reader.addFile(file.c_str(),this);
    }
    if (reader.DocumentSchema > 3) {
        std::string Matrix (reader.getAttribute("mtrx") );
        _Mtrx.fromString(Matrix);
    }
}
void PropertyPath::Restore(Base::XMLReader &reader)
{
    // read my Element
    reader.readElement("Path");
    // get the value of my Attribute
    setValue(reader.getAttribute("value"));
}
Exemplo n.º 12
0
void Chamfer::Restore(Base::XMLReader &reader)
{
    reader.readElement("Properties");
    int Cnt = reader.getAttributeAsInteger("Count");

    for (int i=0 ;i<Cnt ;i++) {
        reader.readElement("Property");
        const char* PropName = reader.getAttribute("name");
        const char* TypeName = reader.getAttribute("type");
        App::Property* prop = getPropertyByName(PropName);

        try {
            if (prop && strcmp(prop->getTypeId().getName(), TypeName) == 0) {
                prop->Restore(reader);
            }
            else if (prop && strcmp(TypeName,"App::PropertyFloatConstraint") == 0 &&
                     strcmp(prop->getTypeId().getName(), "App::PropertyQuantityConstraint") == 0) {
                App::PropertyFloatConstraint p;
                p.Restore(reader);
                static_cast<App::PropertyQuantityConstraint*>(prop)->setValue(p.getValue());
            }
        }
        catch (const Base::XMLParseException&) {
            throw; // re-throw
        }
        catch (const Base::Exception &e) {
            Base::Console().Error("%s\n", e.what());
        }
        catch (const std::exception &e) {
            Base::Console().Error("%s\n", e.what());
        }
        reader.readEndElement("Property");
    }
    reader.readEndElement("Properties");
}
void PropertyBool::Restore(Base::XMLReader &reader)
{
    // read my Element
    reader.readElement("Bool");
    // get the value of my Attribute
    string b = reader.getAttribute("value");
    (b == "true") ? setValue(true) : setValue(false);
}
Exemplo n.º 14
0
void PropertyGreyValueList::Restore(Base::XMLReader &reader)
{
    reader.readElement("FloatList");
    string file (reader.getAttribute("file") );

    if (!file.empty()) {
        // initate a file read
        reader.addFile(file.c_str(),this);
    }
}
Exemplo n.º 15
0
void PropertyExpressionEngine::Restore(Base::XMLReader &reader)
{
    reader.readElement("ExpressionEngine");

    int count = reader.getAttributeAsFloat("count");

    for (int i = 0; i < count; ++i) {
        DocumentObject * docObj = freecad_dynamic_cast<DocumentObject>(getContainer());

        reader.readElement("Expression");
        ObjectIdentifier path = ObjectIdentifier::parse(docObj, reader.getAttribute("path"));
        boost::shared_ptr<Expression> expression(ExpressionParser::parse(docObj, reader.getAttribute("expression")));
        const char * comment = reader.hasAttribute("comment") ? reader.getAttribute("comment") : 0;

        setValue(path, expression, comment);
    }

    reader.readEndElement("ExpressionEngine");
}
void PropertyFilletEdges::Restore(Base::XMLReader &reader)
{
    reader.readElement("FilletEdges");
    std::string file (reader.getAttribute("file") );

    if (!file.empty()) {
        // initate a file read
        reader.addFile(file.c_str(),this);
    }
}
Exemplo n.º 17
0
void PropertyNormalList::Restore(Base::XMLReader &reader)
{
    reader.readElement("VectorList");
    std::string file (reader.getAttribute("file") );

    if (!file.empty()) {
        // initate a file read
        reader.addFile(file.c_str(),this);
    }
}
void Part2DObject::Restore(Base::XMLReader &reader)
{
    //override generic restoration to convert Support property from PropertyLinkSub to PropertyLinkSubList

    reader.readElement("Properties");
    int Cnt = reader.getAttributeAsInteger("Count");

    for (int i=0 ;i<Cnt ;i++) {
        reader.readElement("Property");
        const char* PropName = reader.getAttribute("name");
        const char* TypeName = reader.getAttribute("type");
        App::Property* prop = getPropertyByName(PropName);
        // NOTE: We must also check the type of the current property because a
        // subclass of PropertyContainer might change the type of a property but
        // not its name. In this case we would force to read-in a wrong property
        // type and the behaviour would be undefined.
        try {
            if(prop){
                if (strcmp(prop->getTypeId().getName(), TypeName) == 0){
                    prop->Restore(reader);
                } else if (prop->isDerivedFrom(App::PropertyLinkSubList::getClassTypeId())){
                    //reading legacy Support - when the Support could only be a single flat face.
                    App::PropertyLinkSub tmp;
                    if (0 == strcmp(tmp.getTypeId().getName(),TypeName)) {
                        tmp.setContainer(this);
                        tmp.Restore(reader);
                        static_cast<App::PropertyLinkSubList*>(prop)->setValue(tmp.getValue(), tmp.getSubValues());
                    }
                    this->MapMode.setValue(Attacher::mmFlatFace);
                }
            }
        }
        catch (const Base::XMLParseException&) {
            throw; // re-throw
        }
        catch (const Base::Exception &e) {
            Base::Console().Error("%s\n", e.what());
        }
        catch (const std::exception &e) {
            Base::Console().Error("%s\n", e.what());
        }
        catch (const char* e) {
            Base::Console().Error("%s\n", e);
        }
#ifndef FC_DEBUG
        catch (...) {
            Base::Console().Error("PropertyContainer::Restore: Unknown C++ exception thrown");
        }
#endif

        reader.readEndElement("Property");
    }
    reader.readEndElement("Properties");
}
Exemplo n.º 19
0
void PropertyPointKernel::Restore(Base::XMLReader &reader)
{
    reader.readElement("Points");
    std::string file (reader.getAttribute("file") );

    if (!file.empty()) {
        // initate a file read
        reader.addFile(file.c_str(),this);
    }
    if(reader.DocumentSchema > 3)
    {
        std::string Matrix (reader.getAttribute("mtrx") );
        Base::Matrix4D mtrx;
        mtrx.fromString(Matrix);

        aboutToSetValue();
        _cPoints->setTransform(mtrx);
        hasSetValue();
    }
}
Exemplo n.º 20
0
void Primitive::Restore(Base::XMLReader &reader)
{
    reader.readElement("Properties");
    int Cnt = reader.getAttributeAsInteger("Count");

    for (int i=0 ;i<Cnt ;i++) {
        reader.readElement("Property");
        const char* PropName = reader.getAttribute("name");
        const char* TypeName = reader.getAttribute("type");
        App::Property* prop = getPropertyByName(PropName);
        // For #0001652 the property types of many primitive features have changed
        // from PropertyFloat or PropertyFloatConstraint to a more meaningful type.
        // In order to load older project files there must be checked in case the
        // types don't match if both inherit from PropertyFloat because all derived
        // classes do not re-implement the Save/Restore methods.
        try {
            if (prop && strcmp(prop->getTypeId().getName(), TypeName) == 0) {
                prop->Restore(reader);
            }
            else if (prop) {
                Base::Type inputType = Base::Type::fromName(TypeName);
                if (prop->getTypeId().isDerivedFrom(App::PropertyFloat::getClassTypeId()) &&
                    inputType.isDerivedFrom(App::PropertyFloat::getClassTypeId())) {
                    // Do not directly call the property's Restore method in case the implmentation
                    // has changed. So, create a temporary PropertyFloat object and assign the value.
                    App::PropertyFloat floatProp;
                    floatProp.Restore(reader);
                    static_cast<App::PropertyFloat*>(prop)->setValue(floatProp.getValue());
                }
            }
        }
        catch (const Base::XMLParseException&) {
            throw; // re-throw
        }
        catch (const Base::Exception &e) {
            Base::Console().Error("%s\n", e.what());
        }
        catch (const std::exception &e) {
            Base::Console().Error("%s\n", e.what());
        }
        catch (const char* e) {
            Base::Console().Error("%s\n", e);
        }
#ifndef FC_DEBUG
        catch (...) {
            Base::Console().Error("Primitive::Restore: Unknown C++ exception thrown");
        }
#endif

        reader.readEndElement("Property");
    }
    reader.readEndElement("Properties");
}
Exemplo n.º 21
0
void DynamicProperty::Restore(Base::XMLReader &reader)
{
    reader.readElement("Properties");
    int Cnt = reader.getAttributeAsInteger("Count");

    for (int i=0 ;i<Cnt ;i++) {
        reader.readElement("Property");
        const char* PropName = reader.getAttribute("name");
        const char* TypeName = reader.getAttribute("type");
        Property* prop = getPropertyByName(PropName);
        try {
            if (!prop) {
                short attribute = 0;
                bool readonly = false, hidden = false;
                const char *group=0, *doc=0, *attr=0, *ro=0, *hide=0;
                if (reader.hasAttribute("group"))
                    group = reader.getAttribute("group");
                if (reader.hasAttribute("doc"))
                    doc = reader.getAttribute("doc");
                if (reader.hasAttribute("attr")) {
                    attr = reader.getAttribute("attr");
                    if (attr) attribute = attr[0]-48;
                }
                if (reader.hasAttribute("ro")) {
                    ro = reader.getAttribute("ro");
                    if (ro) readonly = (ro[0]-48) != 0;
                }
                if (reader.hasAttribute("hide")) {
                    hide = reader.getAttribute("hide");
                    if (hide) hidden = (hide[0]-48) != 0;
                }
                prop = addDynamicProperty(TypeName, PropName, group, doc, attribute, readonly, hidden);
            }
        }
        catch(const Base::Exception& e) {
            // only handle this exception type
            Base::Console().Warning(e.what());
        }

        //NOTE: We must also check the type of the current property because a subclass of
        //PropertyContainer might change the type of a property but not its name. In this
        //case we would force to read-in a wrong property type and the behaviour would be
        //undefined.

        // Don't read transient properties
        if (!(getPropertyType(prop) & Prop_Transient)) {
            if (prop && strcmp(prop->getTypeId().getName(), TypeName) == 0)
                prop->Restore(reader);
            else if (prop)
                Base::Console().Warning("%s: Overread data for property %s of type %s, expected type is %s\n",
                    pc->getTypeId().getName(), prop->getName(), prop->getTypeId().getName(), TypeName);
            else
                Base::Console().Warning("%s: No property found with name %s and type %s\n",
                    pc->getTypeId().getName(), PropName, TypeName);
        }
        reader.readEndElement("Property");
    }

    reader.readEndElement("Properties");
}
Exemplo n.º 22
0
void Transformed::Restore(Base::XMLReader &reader)
{
    reader.readElement("Properties");
    int Cnt = reader.getAttributeAsInteger("Count");

    for (int i=0 ;i<Cnt ;i++) {
        reader.readElement("Property");
        const char* PropName = reader.getAttribute("name");
        const char* TypeName = reader.getAttribute("type");
        App::Property* prop = getPropertyByName(PropName);

        // The property 'Angle' of PolarPattern has changed from PropertyFloat
        // to PropertyAngle and the property 'Length' has changed to PropertyLength.
        try {
            if (prop && strcmp(prop->getTypeId().getName(), TypeName) == 0) {
                prop->Restore(reader);
            }
            else if (prop) {
                Base::Type inputType = Base::Type::fromName(TypeName);
                if (prop->getTypeId().isDerivedFrom(App::PropertyFloat::getClassTypeId()) &&
                    inputType.isDerivedFrom(App::PropertyFloat::getClassTypeId())) {
                    // Do not directly call the property's Restore method in case the implmentation
                    // has changed. So, create a temporary PropertyFloat object and assign the value.
                    App::PropertyFloat floatProp;
                    floatProp.Restore(reader);
                    static_cast<App::PropertyFloat*>(prop)->setValue(floatProp.getValue());
                }
            }
        }
        catch (const Base::XMLParseException&) {
            throw; // re-throw
        }
        catch (const Base::Exception &e) {
            Base::Console().Error("%s\n", e.what());
        }
        catch (const std::exception &e) {
            Base::Console().Error("%s\n", e.what());
        }
        catch (const char* e) {
            Base::Console().Error("%s\n", e);
        }
#ifndef FC_DEBUG
        catch (...) {
            Base::Console().Error("Primitive::Restore: Unknown C++ exception thrown");
        }
#endif

        reader.readEndElement("Property");
    }
    reader.readEndElement("Properties");
}
void PropertyStringList::Restore(Base::XMLReader &reader)
{
    // read my Element
    reader.readElement("StringList");
    // get the value of my Attribute
    int count = reader.getAttributeAsInteger("count");

    std::vector<std::string> values(count);
    for(int i = 0; i < count; i++) {
        reader.readElement("String");
        values[i] = reader.getAttribute("value");
    }
    
    reader.readEndElement("StringList");

    // assignment
    setValues(values);
}
Exemplo n.º 24
0
void PropertyLinkList::Restore(Base::XMLReader &reader)
{
    // read my element
    reader.readElement("LinkList");
    // get the value of my attribute
    int count = reader.getAttributeAsInteger("count");
    App::PropertyContainer* container = getContainer();
    if (!container)
        throw Base::RuntimeError("Property is not part of a container");
    if (!container->getTypeId().isDerivedFrom(App::DocumentObject::getClassTypeId())) {
        std::stringstream str;
        str << "Container is not a document object ("
            << container->getTypeId().getName() << ")";
        throw Base::TypeError(str.str());
    }

    std::vector<DocumentObject*> values;
    values.reserve(count);
    for (int i = 0; i < count; i++) {
        reader.readElement("Link");
        std::string name = reader.getAttribute("value");
        // In order to do copy/paste it must be allowed to have defined some
        // referenced objects in XML which do not exist anymore in the new
        // document. Thus, we should silently ignore this.
        // Property not in an object!
        DocumentObject* father = static_cast<DocumentObject*>(getContainer());
        App::Document* document = father->getDocument();
        DocumentObject* child = document ? document->getObject(name.c_str()) : 0;
        if (child)
            values.push_back(child);
        else if (reader.isVerbose())
            Base::Console().Warning("Lost link to '%s' while loading, maybe "
            "an object was not loaded correctly\n", name.c_str());
    }

    reader.readEndElement("LinkList");

    // assignment
    setValues(values);
}
void PropertyGeometryList::Restore(Base::XMLReader &reader)
{
    // read my element
    reader.readElement("GeometryList");
    // get the value of my attribute
    int count = reader.getAttributeAsInteger("count");

    std::vector<Geometry*> values;
    values.reserve(count);
    for (int i = 0; i < count; i++) {
        reader.readElement("Geometry");
        const char* TypeName = reader.getAttribute("type");
        Geometry *newG = (Geometry *)Base::Type::fromName(TypeName).createInstance();
        newG->Restore(reader);
        values.push_back(newG);
        reader.readEndElement("Geometry");
    }

    reader.readEndElement("GeometryList");

    // assignment
    setValues(values);
}
void PropertyEnumeration::Restore(Base::XMLReader &reader)
{
    // read my Element
    reader.readElement("Integer");
    // get the value of my Attribute
    long val = reader.getAttributeAsInteger("value");

    if (reader.hasAttribute("CustomEnum")) {
        reader.readElement("CustomEnumList");
        int count = reader.getAttributeAsInteger("count");
        std::vector<std::string> values(count);
        for(int i = 0; i < count; i++) {
            reader.readElement("Enum");
            values[i] = reader.getAttribute("value");
        }

        reader.readEndElement("CustomEnumList");

        _CustomEnum = true;
        setEnumVector(values);
    }

    setValue(val);
}
Exemplo n.º 27
0
void PropertyPythonObject::Restore(Base::XMLReader &reader)
{
    reader.readElement("Python");
    if (reader.hasAttribute("file")) {
        std::string file(reader.getAttribute("file"));
        reader.addFile(file.c_str(),this);
    }
    else {
        bool load_json=false;
        bool load_pickle=false;
        bool load_failed=false;
        std::string buffer = reader.getAttribute("value");
        if (reader.hasAttribute("encoded") &&
            strcmp(reader.getAttribute("encoded"),"yes") == 0) {
            buffer = Base::base64_decode(buffer);
        }
        else {
            buffer = decodeValue(buffer);
        }

        Base::PyGILStateLocker lock;
        try {
            boost::regex pickle("^\\(i(\\w+)\\n(\\w+)\\n");
            boost::match_results<std::string::const_iterator> what;
            std::string::const_iterator start, end;
            start = buffer.begin();
            end = buffer.end();
            if (reader.hasAttribute("module") && reader.hasAttribute("class")) {
                Py::Module mod(PyImport_ImportModule(reader.getAttribute("module")),true);
                PyObject* cls = mod.getAttr(reader.getAttribute("class")).ptr();
#if PY_MAJOR_VERSION >= 3
                if (PyType_Check(cls)) {
#else
                if (PyClass_Check(cls)) {
                    this->object = PyInstance_NewRaw(cls, 0);
                }
                else if (PyType_Check(cls)) {
#endif
                    this->object = PyType_GenericAlloc((PyTypeObject*)cls, 0);
                }
                else {
                    throw Py::TypeError("neither class nor type object");
                }
                load_json = true;
            }
            else if (boost::regex_search(start, end, what, pickle)) {
                std::string nam = std::string(what[1].first, what[1].second);
                std::string cls = std::string(what[2].first, what[2].second);
                Py::Module mod(PyImport_ImportModule(nam.c_str()),true);
#if PY_MAJOR_VERSION >= 3
                this->object = PyObject_CallObject(mod.getAttr(cls).ptr(), NULL);
#else
                this->object = PyInstance_NewRaw(mod.getAttr(cls).ptr(), 0);
#endif
                load_pickle = true;
                buffer = std::string(what[2].second, end);
            }
            else if (reader.hasAttribute("json")) {
                load_json = true;
            }
        }
        catch (Py::Exception&) {
            Base::PyException e; // extract the Python error text
            e.ReportException();
            this->object = Py::None();
            load_failed = true;
        }

        aboutToSetValue();
        if (load_json)
            this->fromString(buffer);
        else if (load_pickle)
            this->loadPickle(buffer);
        else if (!load_failed)
            Base::Console().Warning("PropertyPythonObject::Restore: unsupported serialisation: %s\n", buffer.c_str());
        restoreObject(reader);
        hasSetValue();
    }
}
Exemplo n.º 28
0
//DVA is still Source PropertyLink so needs different logic vs DV::Restore
void DrawViewArch::Restore(Base::XMLReader &reader)
{
// this is temporary code for backwards compat (within v0.17).  can probably be deleted once there are no development
// fcstd files with old property types in use. 
    reader.readElement("Properties");
    int Cnt = reader.getAttributeAsInteger("Count");

    for (int i=0 ;i<Cnt ;i++) {
        reader.readElement("Property");
        const char* PropName = reader.getAttribute("name");
        const char* TypeName = reader.getAttribute("type");
        App::Property* schemaProp = getPropertyByName(PropName);
        try {
            if(schemaProp){
                if (strcmp(schemaProp->getTypeId().getName(), TypeName) == 0){        //if the property type in obj == type in schema
                    schemaProp->Restore(reader);                                      //nothing special to do
                } else if (strcmp(PropName, "Source") == 0) {
                    App::PropertyLinkGlobal glink;
                    App::PropertyLink link;
                    if (strcmp(glink.getTypeId().getName(),TypeName) == 0) {            //property in file is plg
                        glink.setContainer(this);
                        glink.Restore(reader);
                        if (glink.getValue() != nullptr) {
                            static_cast<App::PropertyLink*>(schemaProp)->setScope(App::LinkScope::Global);
                            static_cast<App::PropertyLink*>(schemaProp)->setValue(glink.getValue());
                        }
                    } else if (strcmp(link.getTypeId().getName(),TypeName) == 0) {            //property in file is pl
                        link.setContainer(this);
                        link.Restore(reader);
                        if (link.getValue() != nullptr) {
                            static_cast<App::PropertyLink*>(schemaProp)->setScope(App::LinkScope::Global);
                            static_cast<App::PropertyLink*>(schemaProp)->setValue(link.getValue());
                        }
                    
                    } else {
                        // has Source prop isn't PropertyLink or PropertyLinkGlobal! 
                        Base::Console().Log("DrawViewArch::Restore - old Document Source is weird: %s\n", TypeName);
                        // no idea
                    }
                } else {
                    Base::Console().Log("DrawViewArch::Restore - old Document has unknown Property\n");
                }
            }
        }
        catch (const Base::XMLParseException&) {
            throw; // re-throw
        }
        catch (const Base::Exception &e) {
            Base::Console().Error("%s\n", e.what());
        }
        catch (const std::exception &e) {
            Base::Console().Error("%s\n", e.what());
        }
        catch (const char* e) {
            Base::Console().Error("%s\n", e);
        }
#ifndef FC_DEBUG
        catch (...) {
            Base::Console().Error("PropertyContainer::Restore: Unknown C++ exception thrown\n");
        }
#endif

        reader.readEndElement("Property");
    }
    reader.readEndElement("Properties");

}
Exemplo n.º 29
0
/**
 * This method was added for backward-compatibility. In former versions
 * of Box we had the properties x,y,z and l,h,w which have changed to
 * Location -- as replacement for x,y and z and Length, Height and Width.
 */
void Box::Restore(Base::XMLReader &reader)
{
    reader.readElement("Properties");
    int Cnt = reader.getAttributeAsInteger("Count");

    bool location_xyz = false;
    bool location_axis = false;
    bool distance_lhw = false;
    Base::Placement plm;
    App::PropertyDistance x,y,z;
    App::PropertyDistance l,w,h;
    App::PropertyVector Axis, Location;
    Axis.setValue(0.0f,0.0f,1.0f);
    for (int i=0 ;i<Cnt;i++) {
        reader.readElement("Property");
        const char* PropName = reader.getAttribute("name");
        const char* TypeName = reader.getAttribute("type");
        App::Property* prop = getPropertyByName(PropName);
        if (!prop) {
            // in case this comes from an old document we must use the new properties
            if (strcmp(PropName, "l") == 0) {
                distance_lhw = true;
                prop = &l;
            }
            else if (strcmp(PropName, "w") == 0) {
                distance_lhw = true;
                prop = &h; // by mistake w was considered as height
            }
            else if (strcmp(PropName, "h") == 0) {
                distance_lhw = true;
                prop = &w; // by mistake h was considered as width
            }
            else if (strcmp(PropName, "x") == 0) {
                location_xyz = true;
                prop = &x;
            }
            else if (strcmp(PropName, "y") == 0) {
                location_xyz = true;
                prop = &y;
            }
            else if (strcmp(PropName, "z") == 0) {
                location_xyz = true;
                prop = &z;
            }
            else if (strcmp(PropName, "Axis") == 0) {
                location_axis = true;
                prop = &Axis;
            }
            else if (strcmp(PropName, "Location") == 0) {
                location_axis = true;
                prop = &Location;
            }
        }
        else if (strcmp(PropName, "Length") == 0 && strcmp(TypeName,"PropertyDistance") == 0) {
            distance_lhw = true;
            prop = &l;
        }
        else if (strcmp(PropName, "Height") == 0 && strcmp(TypeName,"PropertyDistance") == 0) {
            distance_lhw = true;
            prop = &h;
        }
        else if (strcmp(PropName, "Width") == 0 && strcmp(TypeName,"PropertyDistance") == 0) {
            distance_lhw = true;
            prop = &w;
        }

        // NOTE: We must also check the type of the current property because a subclass
        // of PropertyContainer might change the type of a property but not its name.
        // In this case we would force to read-in a wrong property type and the behaviour
        // would be undefined.
        std::string tn = TypeName;
        if (strcmp(TypeName,"PropertyDistance") == 0) // missing prefix App::
            tn = std::string("App::") + tn;
        if (prop && strcmp(prop->getTypeId().getName(), tn.c_str()) == 0)
            prop->Restore(reader);

        reader.readEndElement("Property");
    }

    if (distance_lhw) {
        this->Length.setValue(l.getValue());
        this->Height.setValue(h.getValue());
        this->Width.setValue(w.getValue());
    }

    // for 0.7 releases or earlier
    if (location_xyz) {
        plm.setPosition(Base::Vector3d(x.getValue(),y.getValue(),z.getValue()));
        this->Placement.setValue(this->Placement.getValue() * plm);
        this->Shape.setStatus(App::Property::User1, true); // override the shape's location later on
    }
    // for 0.8 releases
    else if (location_axis) {
        Base::Vector3d d = Axis.getValue();
        Base::Vector3d p = Location.getValue();
        Base::Rotation rot(Base::Vector3d(0.0,0.0,1.0),
                           Base::Vector3d(d.x,d.y,d.z));
        plm.setRotation(rot);
        plm.setPosition(Base::Vector3d(p.x,p.y,p.z));
        this->Placement.setValue(this->Placement.getValue() * plm);
        this->Shape.setStatus(App::Property::User1, true); // override the shape's location later on
    }

    reader.readEndElement("Properties");
}
Exemplo n.º 30
0
void Cell::restore(Base::XMLReader &reader)
{
    const char* style = reader.hasAttribute("style") ? reader.getAttribute("style") : 0;
    const char* alignment = reader.hasAttribute("alignment") ? reader.getAttribute("alignment") : 0;
    const char* content = reader.hasAttribute("content") ? reader.getAttribute("content") : "";
    const char* foregroundColor = reader.hasAttribute("foregroundColor") ? reader.getAttribute("foregroundColor") : 0;
    const char* backgroundColor = reader.hasAttribute("backgroundColor") ? reader.getAttribute("backgroundColor") : 0;
    const char* displayUnit = reader.hasAttribute("displayUnit") ? reader.getAttribute("displayUnit") : 0;
    const char* alias = reader.hasAttribute("alias") ? reader.getAttribute("alias") : 0;
    const char* rowSpan = reader.hasAttribute("rowSpan") ? reader.getAttribute("rowSpan") : 0;
    const char* colSpan = reader.hasAttribute("colSpan") ? reader.getAttribute("colSpan") : 0;

    // Don't trigger multiple updates below; wait until everything is loaded by calling unfreeze() below.
    PropertySheet::AtomicPropertyChange signaller(*owner);

    if (content) {
        setContent(content);
    }
    if (style) {
        using namespace boost;
        std::set<std::string> styleSet;

        escaped_list_separator<char> e('\0', '|', '\0');
        std::string line = std::string(style);
        tokenizer<escaped_list_separator<char> > tok(line, e);

        for(tokenizer<escaped_list_separator<char> >::iterator i = tok.begin(); i != tok.end();++i)
            styleSet.insert(*i);
        setStyle(styleSet);
    }
    if (alignment) {
        int alignmentCode = 0;
        using namespace boost;

        escaped_list_separator<char> e('\0', '|', '\0');
        std::string line = std::string(alignment);
        tokenizer<escaped_list_separator<char> > tok(line, e);

        for(tokenizer<escaped_list_separator<char> >::iterator i = tok.begin(); i != tok.end();++i)
            alignmentCode = decodeAlignment(*i, alignmentCode);

        setAlignment(alignmentCode);
    }
    if (foregroundColor) {
        App::Color color = decodeColor(foregroundColor, App::Color(0, 0, 0, 1));

        setForeground(color);
    }
    if (backgroundColor) {
        App::Color color = decodeColor(backgroundColor, App::Color(1, 1, 1, 1));

        setBackground(color);
    }
    if (displayUnit)
        setDisplayUnit(displayUnit);
    if (alias)
        setAlias(alias);

    if (rowSpan || colSpan) {
        int rs = rowSpan ? atoi(rowSpan) : 1;
        int cs = colSpan ? atoi(colSpan) : 1;

        setSpans(rs, cs);
    }
}